chapter1 the world of robots
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The World of Robots
I wouldn't ever want them to be brought back to Earth. We built them for Mars,
and Mars is where they should stay. ButSpiritandOpportunity have become
more than just machines to me. The rovers are our surrogates, our robotic
precursors to a world that, as humans, we're still not quite ready to visit.
-: Steve Squyres in Roving Mars, Hyperion, 2005.
Opposite page: Mars Rover.
Photo courtesy of NASA/JPL-Caltech
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The picture above is among one of thousands sent back by Spiritand
Opportunity from the surface of Mars. It goes without saying that it will probably
be several years, decades or even more, before a human ever sets foot on Mars.The rovers Spiritand Opportunity landed on Mars in January 2004 as robot
geologists whose mission was to analyze rocks and soils of the red planet insearch for clues to past presence of water on the planet. The two robots wereexpected to last about 90 days. Years later, they were still exploring the planet's
surface and sending invaluable geological and pictorial data from the planet.Only in the spring of 2011 did NASA suspend operations on Spiritbut its twin,
Opportunity, is still continuing to explore the planet while NASA is getting ready
to send another rover, Curiosity, to explore Mars.
Back on Earth, the same month as the rovers landing on Mars, the Tumbleweed
robot rover traveled 40 miles across Antarcticas polar plateau transmitting localmeteorological data back to its base station via satellite. Besides survivingadverse conditions on Mars and Antarctica, robots are slowly becoming
household consumer items. Take for instance, the Roomba from iRobotCorporation. Introduced in 2002, more than 6 million Roombas have been sold tovacuum and clean floors.
One commonality among the robots mentioned above is that they are all
designed for very specific tasks: analyze rocks and soils on the surface of Mars,meteorology on the polar cap, or vacuuming a room. Yet, the core of robot
technology is almost as easy to use as computers. In this course you will be givena personal robot of your own. Through this personal robot, you will learn to giveit instructions to do a variety of tasks. Like the robots mentioned above your
robot is also a rover. However, unlike the robots above, your personal robot doesnot come pre-programmed to do any specific task. It has certain basic capabilities(that you will learn about) and it can be programmed to make use of its
The rim of Victoria Crater on Mars.
The rover Opportunityhas been superimposed on the crater rim to show scale.
Photo courtesy of JPL/NASA/Cornell University, October, 2006.
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capabilities to do various tasks. We hope that the process of learning about the
capabilities of your robot and making it do different things will be exciting andfun for you. In this chapter, we introduce you to the world of robots and then
introduce you to your own personal robot and some of its capabilities.
What is a robot?
The Merriam-Webster Online Dictionary gives the following definitions of theword robot:
1. a machine that looks like a human being and performs various complex acts (as
walking or talking) of a human being; also a similar but fictional machine whose
lack of capacity for human emotions is often emphasized; and also an efficient
insensitive person who functions automatically
2. a device that automatically performs complicated often repetitive tasks
3. a mechanism guided by automatic controls
In today's world, the first two definitions will probably be considered archaic
(the third interpretation in the first definition notwithstanding). Robots wereoriginally conceived as human-like entities, real or fictional, devoid of emotions,that performed tasks that were repetitive or full or drudgery. Today's robots come
in all kinds of shapes and sizes and take on all kinds of tasks (see below for someexamples). While many robots are put to use for repetitive or dull tasks(including the Roomba; unless you enjoy the therapeutic side effects of
vacuuming :-), robots today are capable of doing a lot more than implied by thefirst two definitions above. Even in fictional robots the lack of emotionalcapacity seems to have been overcome (see for instance Steven Spielbergs
movie,Artificial Intelligence).
For our purposes, the third definition is more abstract and perhaps moreappropriate. A robotis a mechanism or an artificial entity that can be guided byautomatic controls. The last part of the definition,guided by automatic controls,
is what we will focus on in this course. That is, given a mechanism capable of
such guidance, what is involved in creating its controls?
"I want a Roomba to vacuum my floors, Scooba to wash my floors, Verroto clean my pool, Looj to clean my gutters."
-: From www.irobot.com web site, 2011.
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A Short History of Robots
Modern robots were initially conceived as industrial robots designed to assist inautomated manufacturing tasks. The first commercial robot company,
Unimation, was created nearly 50 years ago. As the use of robots in industrial
manufacturing grew, people also started experimenting with other uses of robots.Earlier industrial robots were mainly large
arms that were attached to a fixed base.However, with the development of mobilerobots people started to find uses for them in
other domains. For instance, in exploringhazardous environments ranging fromradioactive sites, volcanoes, finding and
destroying mines, military surveillance, etc.We started this chapter by introducing you
to two Mars rover robots. The first everplanetary rover landed on Mars in 1997.Increasingly in the last decade or so robotshave ventured into newer and more exciting
areas like medicine (Google: roboticsurgery, robot wheelchair, etc.), toys andentertainment (Google:Pleo, SONY Aibo,
LEGO Mindstorms, etc.), and eveneducation (Google:IPRE). Some of themost exciting developments in robotics are
still in research stages where, for example,in Artificial Intelligence research people are
trying to develop intelligent robots and also using robots to understand and
explore models of human intelligence. Here we have provided some pointers (dothe searches mentioned above) for examples of various robots and their uses.There are numerous web sites where you can look up more about the history of
robots. We will leave that as an exercise.
Robots and Computers
In the last few decades computers have become increasingly ubiquitous. Mostlikely you are reading this sentence on a computer. If youre reading this textonline, the text itself is coming to you from another computer (located
somewhere on the western banks of the Delaware River in south-eastern parts ofthe state of Pennsylvania in the United Stated of America). On its journey fromthe computer in Pennsylvania to your computer, the text has probably traveled
through several computers (several dozen if you are outside the state of
Today, it is hard to imagine life
without a web search engine.
While there are several search
engines available, the one
provided by Google Inc. has
become synonymous with web
searching. So much so that people
use it as a common phrase:
Google it!
You may have your own personal
preference for a search engine. Go
ahead use it and search for the
items suggested here.
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Pennsylvania!). What makes this journey of this text almost instantaneous is the
presence of communication networks over which the internet and the WorldWide Web operate. Advances in the technologies of wireless communicationnetworks make it possible to access the internet from nearly any place on the
planet. The reason that you are sitting in front of a computer and learning about
robots is primarily because of theadvent of these technologies. While
robots are not quite as ubiquitous ascomputers, they are not too far behind.In fact, it is precisely the advances in
computers and communicationstechnologies that have made it feasiblefor you to become more familiar with
the world of robots.
The relationship between robots andcomputers is the basis for the use of
the phrase automatic controls indescribing a robot. Automaticallycontrolling a robot almost always
implies that there is a computerinvolved. So, in the process of learningabout and playing with robots you will
also uncover the world of computers.Your robot has a computer embedded in it. You will be controlling the robotthrough your computer. Moreover, you will do this over a wireless
communication technology called bluetooth. Initially, for our purposes, learningto automatically control a robot is going to be synonymous with learning tocontrol a computer. This will become more obvious as we proceed through these
lessons.
Automating control involves specifying, in advance, the set of tasks the robot orthe computer is to perform. This is calledprogramming. Programming involvesthe use of aprogramming language. Today, there are more programming
languages than human languages! Perhaps you have heard of some of them: Java,C, Python, etc. In this course, we will do all our robot programming in theprogramming languagePython. Python, named after the popular Monty Python
TV shows, is a modern language that is very easy to learn and use.
While we are talking about computers and languages, we should also mention theMyro (forMyrobot) software system. Myro was developed by us to simplify the
programming of robots. Myro provides a small set of robot commands that
A Postage stamp titled World of
Invention (The Internet) was issued by
UKs Royal Mail on March 1, 2007
honoring the development of the
World Wide Web.
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extend the Python language. This makes it easy, as
you will see, to specify automatic controls for
robots.
A Robot of Your Own: The Scribbler
The scribbler robot, shown here, is also a rover. It
can move about in its environment. The wheels,and its other functions, can be controlled through acomputer via a wireless interface. Your laboratory assistants will provide you
with a Scribbler and the required components to enable wireless communication.Once configured, you will be able to control the robot's movements (and all otherfeatures) through the computer. Besides moving, your robot can also play sounds
(beeps) and, with the help of a pen inserted in its pen port, it can draw a linewherever it goes (hence its name, Scribbler). The robot can move forward,backward, turn, spin, or perform any
combination of these movements giving itadequate functionality to travel anywhereon the surface of an environment. Besidesroving, the Scribbler robot can also sensecertain features of its environment. For
example, it is capable of sensing a wall oran obstacle, or a line on the floor. We willdiscuss the Scribblers sensing capabilities
later.
Do This
The first few activities show you how youto set up the computer and the robot and
will help you get familiarized with yourScribbler. This will involve the following
four activities:
1. First things first: Setup Myro2. Name your robot3. Drive your robot around4. Explore a little further
You may need the assistance of your instructor for the first activity to ensure that
you know how to set up and use your robot for the remainder of the text.
Dear Student:
Every chapter in this book will include
several hands-on activities. These are
short learning exercises designed
carefully to explore some of the
concepts presented in the chapter. It
is important that you do all of the
activities in the chapter before moving
on to the next chapter.
We would also recommend trying out
some (or all) of the exercises
suggested at the end to gain a better
understanding.
The Scribbler 2 Robot
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1. First things first: Setup Myro
At the time you received your robot, its softwareand hardware was configured for use. The
software we will be using for controlling the
robot is called, Myro (forMyRobot) whichworks in conjunction with the Python language.
In this, the first exercise, we will start the robotand the software and ensure that the software isable to successfully communicate with the robot
through your computer. If Myro has not beeninstalled on your computer, you should go aheadand obtain a copy of it by inserting the Myro CD
into your computer or following directions from
the Myro Installation Manual.
In a typical session, you will start the
Python software, connect to the robotthrough the Myro library, and thencontrol the robot through it. We have
set up the system so that allcommunication between thecomputer and the robot occurs
wirelessly over a Bluetoothconnection. Bluetooth technology isa common wireless communication
technology that enables electronicdevices to talk to each other overshort distances. For example,
Bluetooth is most commonly used incell phones to enable wireless communication between a cell phone (which maybe in your pocket) and your wireless headset. This kind of communication
requires two physical devices that serve as receivers and transmitters. In theScribbler kit you received, there is a pair of these Bluetooth devices: one
connects into the scribbler (Fluke Dongle) and the other into the USB port ofyour computer. If your computer has a built-in Bluetooth capability, you may notneed the one that goes into your computer. Go ahead and make sure that thesedevices are plugged in, the robot is turned on, and so is your computer. Open up
the Bluetooth configuration facility on your computer to get the port numberbeing used for communication. On Windows this will be something like COM12(the actual number will vary). Detailed instructions for setting up the Bluetooth
The Fluke Dongle adds
Bluetooth and other
capabilities to the Scribbler.
The Scribbler robot with the Fluke Dongle.
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connection came with your robot. Make sure you have established the connection
and obtained the port number before proceeding.
2. Name your robot
In this exercise, we will connect to the robot and make it do something simple,like make it beep. Then, we will give the robot a name to personalize it. These
tasks can be performed by using the following steps:
1. Start Python
2. Connect to the robot
3. Make the robot beep
4. Give the robot a name
Since this is your very first experience with using robots, we will provide
detailed instructions to accomplish the task outlined above.
1. Start Python: When you installed the software, a file called Start
Python.pyw was created. You should copy this file into a folder where you plan
to store all your robot programs. Once done, navigate to that folder and open it.
In it you will find the Start Python icon. Go ahead and double-click on it. The
following window should appear on your computer screen:
What you see above is the Python interaction window or thePython Shell. Thisparticular shell is calledIDLE(notice that it reports above that you are using
IDLE Version 1.1.4.). You will be entering all Python commands in this IDLE
window. The next step is to use Myro to connect to the robot.
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2. Connect to the robot: Make sure your robot and the computer have their
Bluetooth dongles inserted and that your robot is turned on. To connect to the
robot enter the following command into the Python shell:
>>> from myro import *
This interaction is shown below (the Myro version number will be different):
That is, you have now informed the Python Shell that you will be using the Myro
library. The import statement/command is something you will use each time you
want to control the robot. After issuing the import, some useful information isprinted about Myro and then the Shell is ready for the next Python command.
Now it is time to connect to the robot by issuing the following command:
>>> initialize("comX")
where X is the port number which your computer is using to communicate withthe robot. If you need help figuring out the port number, consult with your
instructor. The example below shows how to issue the command when the port
com3 is being used:
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When you issue the initialize command, the computer attempts to
communicate with the robot. If this is successful, the robot responds with the
Hello... line shown above. As you can see, the robot's name is RedRover. You
can give your robot whatever name you like. We will do that later. First, let usgive it a command to make a beep so that we know that we are in control of the
robot:
3. Make the robot beep: In the Python Shell, enter the command:
>>> beep(1, 880)
The command above directs the robot to make a beeping sound at 880 Hertz for1 second. Go ahead and try it. Your robot will beep for 1 second at 880 Hz. Goahead and try the following variations to hear different beeps:
beep(0.5, 880)
beep(0.5, 500)
etc.
So now, you should realize that you are in control of the robot. By issuing simplecommands like the ones above, you can make the robot perform different
behaviors. Now, we can learn the command to give the robot a new name.
4. Give the robot a name: Suppose we wanted to name the robot Shrek. To do
this, all you have to do it give it the following command:
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>>> setName("Shrek")
Whatever name you decide to give your robot, you can specify it in the command
above replacing the words Shrek. From now on, that will be the name of the
robot. How do we know this for a fact? Go ahead and try asking it its name:
>>> getName()
It will also report that name each time you connect to it using the initialize
command:
>>> initialize("com3")
Waking robot from sleep...
Hello, I'm Shrek!
>>>
Congratulations! You have now completed the first Exercise and you are well onyour way to more fun and exciting things with your robot. Before we move on, itwould be a good idea to review what you just did. Each session with a robotbegins by starting the Python software (Step 1 above), followed by importing the
Myro library and initializing the robot. From then on, you can issue any
command to the robot.
The Myro library contains dozens of commands that enable various kinds of
robot behaviors. In the next few weeks we will be learning several robotcommands and learning how to use them to program complex robot behaviors.One thing to remember at this juncture is that all commands are being issued in
the Python language. Thus, as you learn more about your robot and its behaviors,you will also be learning the Python language.
One characteristic of programming languages (like Python) is that they have avery strict way of typing commands. That is, and you may already haveexperienced this above, the language is very precise about what you type and
how you type it. Every parenthesis, quotation mark, and upper and lower caseletter that makes up a command has to be typed exactly as described. While the
rules are strict, luckily there aren't too many of them. Soon you will getcomfortable with this syntax and it will become second nature. The precision insyntax is required so that the computer can determine exactly one interpretation
for the command resulting in desired action. For this reason, computer languagesare often distinguished from human languages by describing them asformal
languages (as opposed to natural languages that are used by humans).
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3. Drive the robot around
In this exercise, we will introduce you to a wayof making the robot move about in itsenvironment manually controlled by a game pad
device (see picture on right). As above, place therobot on an open floor, turn the robot on, startPython as above and connect to the robot. Youmay already have this from Exercise 2 above.
Also, plug the game pad controller into anavailable USB port of your computer. At the
prompt, enter the following command:
>>> gamepad()
In response to this command, you will get some help text printed in the IDLEwindow showing what would happen if you pressed various game pad buttons. If
you look in the picture of the game pad controller above, you will notice that ithas eight (8) blue buttons (numbered 1 through 8 in the picture), and an axiscontroller (the big blue swivel button on the left). The axis controller can be used
to move the robot around. Go ahead and try it. Pressing each of the numberedbuttons will result in different behaviors, some will make the robot beep, somewill make the computer speak or say things. Button#1 will result in the robot
taking a picture of whatever it is currently seeing through its camera and displayit on your computer screen. Button#8 will quit from the game pad control mode.
Spend some time experimenting with the various game pad control features. Seehow well you can navigate the robot to go to various places, or follow a wall, or
go round and round something (like yourself!). You may also place the robot ona big piece of paper, insert a Sharpie pen in its pen port and then move it aroundto observe its scribbling. Can you scribble your name (or initials)? Try a pattern
or other shapes.
Without creating a program, this is an effective remote way of controlling the
movements of your robot. The next exercise asks you to try and issue commandsto the robot to move.
4. Explore a little further
OK, now you are on your own. Start Python, import Myro, connect to the robot,and give commands to move forward, backward, turn left and right, and spin.
Use the commands: forward(SPEED), backward(SPEED), turnLeft(SPEED),
The game pad controller.
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turnRight(SPEED), and rotate(SPEED). SPEED can be any number between -
1.0...1.0. These and all other robot commands are detailed in the Myro
Reference Manual. This would be a good time to review the descriptions of all
the commands introduced in this section.
Myro Review
from myro import *
This command imports all the robot commands available in the Myro library. We
will use this whenever we intend to write programs that use the robot.
initialize()
init()
This command establishes a wireless communication connection with the robot.
is determined at the time you configured your software during
installation. It is typically the word com followed by a number. For example,"com5". The double quotes (") are essential and required.
beep(, )
Makes the robot beep for seconds at frequency specified by
.
getName()
Returns the name of the robot.
setName()Sets the name of the robot to . The new name should be enclosed in
double quotes, no spaces, and not more than 16 characters long. For example:
setName("Bender").
gamepad()
Enables manual control of several robot functions and can be used to move the
robot around.
Python Review
Start Python.pyw
This is the icon you double-click on to start a Python Shell (IDLE).
>>>
The Python prompt. This is where you type in a Python command.
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Note: All commands you type (including the Myro commands listed above) are
essentially Python commands. Later, in this section we will list those commands
that are a part of the Python language.
Exercises
1. Where does the word robotcome from? Explore the etymology of thewords robotand robotics and write a short paper about it.
2. What are Asimov's Laws of robotics? Write a viewpoint essay on them.3. Look up the Wikipedia entry on robots, as well as the section in AI
Topics (see links above). Write a short essay on the current state of
robots.4. Write a short essay on a robot (real or fictional) of your choice. Based on
what you have learned from your readings, evaluate its capabilities.5. Spiritand Opportunity were not the
first rovers to land on Mars. On July 4,1997, theMars Pathfinderlanded on
Mars with a payload that included theSojournerrover. The United StatesPostal Service issued the stamp shown
here to commemorate the landing.This is perhaps the first ever real robot
to appear on a postage stamp! Find outwhat you can about theMarsPathfindermission and compare the Sojournerrover with SpiritandOpportunity.
6. Through the exercises, you have experienced a subset of capabilities ofthe Scribbler robot. Reflect/write about the physical capabilities of theScribbler and the kinds of tasks you could make it perform.
7. Insert a pen (provided in your kit) in the robot's pen port. Place the roboton a surface where it is OK to write/draw. Drive the robot around withthe game pad controller. It will scribble on the paper as it moves. Observe
its scribbles by moving it forward and then backwards. Does it trace itspath exactly? Why or why not?
8. Using the game pad operation, make your robot Scribble your name onthe floor. You may find this difficult for several reasons. Try to make therobot write your initials instead. Also, see if you can guide the robot todraw a five point star. This task is in some sense not too different from
controlling a robot to perform surgery. Research the capabilities oftoday's surgical robots and write a short paper about it.
Facsimile of the Mars
Pathfinder Postage Stamp
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9. Using the game pad controller draw the Bluetooth logo (see picture)using a pen inserted in the Scribbler robot. Do a web search for Harald
Bltand and read more about the runic alphabets.
Further Reading
1. Wikipedia entry on Robots (http://en.wikipedia.org/wiki/Robot)2. AI Topics: Robots from the American Association for Artificial
Intelligence (AAAI) (http://www.aaai.org/AITopics/html/robots.html)
3. Social Robots are robots that interact with and learn from people aroundthem. Here is an interview with Cynthia Breazeal who heads the RoboticLife Group at MIT's Media Lab.
(http://www.pbs.org/saf/1510/features/breazeal.htm)4. Visit the online Robot Hall of Fame and find out more about the real and
fictional robots that have been inducted into it.
(http://www.robothalloffame.org/)
Harald Bltand Gormson
Whats in a name?
The Bluetooth logo is derived from runic alphabet
letters H and B juxtaposed together. HB for Harald
Bltand a Scandinavian King (from the 10th century AD)
who was legendary in uniting Denmark and Norway.
The wireless technology we use today is named in his
honor (Bltand means Bluetooth) because the
technology itself was developed by Ericsson, a
Scandinavian company. The technology is designed to
unite computers and telecomm devices. Bluetooth
devices are most commonly found in cell phones.Were using it here to communicate between your
robot and the computer.